Computational Fluid Dynamics in Renewable Energy Technologies 1st Edition

Capture the cutting edge of engineering with Computational Fluid Dynamics in Renewable Energy Technologies, 1st Edition by Mateusz Szubel, Mariusz Filipowicz, Karolina Papis-Frączek, and Maciej Kryś. This authoritative volume brings rigorous CFD theory to real-world renewable energy challenges, making it essential for engineers, researchers, and advanced students worldwide.

Explore practical, example-driven coverage of numerical methods, turbulence modeling, mesh generation, and model validation tailored to wind turbines, solar thermal collectors, hydro turbines, and emerging offshore systems. Clear explanations are paired with industry-relevant case studies that demonstrate how CFD accelerates design optimization, improves performance, and reduces costs across Europe, North America, and the Asia-Pacific energy markets.

Designed for both academic and professional use, the book balances mathematical depth with hands-on application. Readers will find step-by-step workflows for setting up simulations, interpreting results, and integrating CFD insights into multidisciplinary energy projects. The authors—recognized experts in fluid dynamics and renewable technologies—provide actionable guidance for optimizing aerodynamics, heat transfer, and multiphase flows in utility-scale and distributed-energy systems.

Whether you are developing next-generation wind farms, refining solar thermal arrays, or modeling coastal hydropower installations, this text equips you with the computational tools and best practices to deliver measurable improvements. Packed with applied examples, it’s a strategic resource for engineers, consultants, and decision-makers aiming to drive sustainable energy innovation.

Advance your CFD skillset and make informed design choices—add Computational Fluid Dynamics in Renewable Energy Technologies, 1st Edition to your professional library today.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.